Abstract
We focus here on the simulation of surgical acts of types similar to cutting and needle insertion in soft tissue, in real time (500 Hz), where the scale of the surgical instrument is several orders of magnitude smaller than that of the organ.
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Kerfriden, P., Passieux, J.C., Bordas, S.: Local/global model order reduction strategy for the simulation of localised failure. Int. J. Numer. Meth. Eng. 89(2), 154–179 (2012)
Niroomandi, S., Alfaro, I., Cueto, E., Chinesta, F.: Real-time deformable models of non-linear tissues by model reduction techniques, Computer Methods and Programs in Biomedicine, Elsevier, 91(3), 223–231 (2008)
Kerfriden, P., Gosselet, P., Adhikari, S., Bordas, S.P.-A.: Bridging proper orthogonal decomposition methods and augmented Newton–Krylov algorithms: an adaptive model order reduction for highly nonlinear mechanical problems, Computer Methods in Applied Mechanics and Engineering, 200(5):850–866 (2011)
Wu, X., Downes, M.S., Goktekin, T., Tendick, F.: Adaptive nonlinear finite elements for deformable body simulation using dynamic progressive meshes. Comput. Graph. Forum. 20(3), 349–358 (2001)
Joldes, G.R., Wittek, A., Miller, K.: Real-time nonlinear finite element computations on GPU-application to neurosurgical simulation. Comput. Meth. Appl. Mech. Eng. 199(49–52), 3305–3314 (2010)
Courtecuisse, H., Junga, H., Allard, J., Duriez, C., Lee, D.Y., Cotin, S.: GPU-based real-time soft tissue deformation with cutting and haptic feedback. Prog. Biophys. Mol. Biol. 103(2–3), 159–68 (2010)
Acknowledgment
Acknowledgment of S. Bordas for the financial support of The European Research Council Starting Independent Research Grant entitled “Towards real time multiscale simulation of cutting in heterogeneous materials with applications to surgical simulation and computer guided surgery” (ERC Stg grant agreement No. 279578) and of the UK Engineering and Physical Science Research Council (EPSRC) for partial support of his time under grant: EP/I006494/1 Sustainable domain-specific software generation tools for extremely parallel particle-based simulations
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Courtecuisse, H., Kerfriden, P., Bordas, S.P.A. (2013). Cutting in Real Time in Corotational Elasticity and Perspectives on Simulating Cuts. In: Wittek, A., Miller, K., Nielsen, P. (eds) Computational Biomechanics for Medicine. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-6351-1_1
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